rps33

Source code:

import random
kon={'RR':'1','RP':'2','RS':'3','PR':'4','PP':'5','PS':'6','SR':'7','SP':'8','SS':'9'}
d0s={'1':0,'2':0,'3':0,'4':1,'5':1,'6':1,'7':2,'8':2,'9':2}
d1s={'1':0,'2':1,'3':2,'4':0,'5':1,'6':2,'7':0,'8':1,'9':2}
k2i={'R':0,'P':1,'S':2}
i2k={0:'R',1:'P',2:'S'}
def mdl(N):
N%=3
if N<0:
N+=3
return N
if not input:
DNA=""
flag=[False]*2
hist=[[0]*3]*2
eval=[0]*3
subs=[0]*6
prin=[[0]*6]*4
meta=[0]*4
output=random.choice("RPS")
else:
for i in range(4):
j=prin[i].index(max(prin[i]))
if (j<3 and flag[0]) or (j>3 and flag[1]):
k=mdl(subs[j]-k2i[input])
if k==2:
meta[i]-=1
else:
meta[i]+=k
for j in range(6):
if (j<3 and flag[0]) or (j>3 and flag[1]):
prin[1][j]*=0.9
prin[3][j]*=0.9
k=mdl(subs[j]-k2i[input])
if k==0:
for i in range(2,4):
prin[i][j]-=0.1
elif k==1:
for i in range(4):
prin[i][j]+=1
elif k==2:
for i in range(4):
if i<2 or prin[i][j]<2:
prin[i][j]-=1
else:
prin[i][j]*=0.5
DNA+=kon[input+output]
output=random.choice("RPS")
for i in range(2):
for j in range(3):
hist[i][j]=0
i=min(128,len(DNA))
j=-1
z=1
while i>1 and j<0:
i-=1
RNA=DNA[-i:]
j=DNA.find(RNA,0,-1)
while j>=0:
hist[0][d0s[DNA[i+j]]]+=z
hist[1][d1s[DNA[i+j]]]+=z
j=DNA.find(RNA,j+1,-1)
z+=0.1
for i in range(2):
flag[i]=(hist[i][0]<>hist[i][1] or hist[i][1]<>hist[i][2])
if flag[i]:
for j in range(3):
eval[j]=hist[i][mdl(j-1)]-hist[i][mdl(j+1)]
k=eval.index(max(eval))
for j in range(3):
subs[3*i+j]=mdl(k-j+i)
i=meta.index(max(meta))
if meta[i]>0:
j=prin[i].index(max(prin[i]))
if ((j<3 and flag[0]) or (j>3 and flag[1])) and prin[i][j]>0:
output=i2k[subs[j]]